It was discovered that the Crypto API allowed unprivileged users
to load arbitrary kernel modules. A local user can use this flaw
to exploit vulnerabilities in modules that would not normally be
loaded.

Akira Fujita found that the splice() system call did not validate
the given file offset and length. A local unprivileged user can use
this flaw to cause filesystem corruption on ext4 filesystems, or
possibly other effects.

Florian Westphal discovered that a netfilter (iptables/ip6tables) rule
accepting packets to a specific SCTP, DCCP, GRE or UDPlite
port/endpoint could result in incorrect connection tracking state.
If only the generic connection tracking module (nf_conntrack) was
loaded, and not the protocol-specific connection tracking module,
this would allow access to any port/endpoint of the specified
protocol.

It was found that kernel functions that iterate over a directory
tree can dead-lock or live-lock in case some of the directory
entries were recently deleted or dropped from the cache. A local
unprivileged user can use this flaw for denial of service.

Andy Lutomirski discovered that address randomisation for the vDSO
in 64-bit processes is extremely biased. A local unprivileged user
could potentially use this flaw to bypass the ASLR protection
mechanism.

It was found that KVM did not correctly emulate the x86 SYSENTER
instruction. An unprivileged user within a guest system that has
not enabled SYSENTER, for example because the emulated CPU vendor
is AMD, could potentially use this flaw to cause a denial of
service or privilege escalation in that guest.

It was discovered that the open_by_handle_at() system call reads
the handle size from user memory a second time after validating
it. A local user with the CAP_DAC_READ_SEARCH capability could use
this flaw for privilege escalation.

It was found that the SCTP implementation could free an
authentication state while it was still in use, resulting in heap
corruption. This could allow remote users to cause a denial of
service or privilege escalation.

It was found that address randomisation for the initial stack in
64-bit processes was limited to 20 rather than 22 bits of entropy.
A local unprivileged user could potentially use this flaw to
bypass the ASLR protection mechanism.

For the stable distribution (wheezy), these problems have been fixed in
version 3.2.65-1+deb7u2. Additionally this update fixes regressions
introduced in versions 3.2.65-1 and 3.2.65-1+deb7u1.

For the upcoming stable distribution (jessie), these problems will be fixed
soon (a subset is fixed already).

For the unstable distribution (sid), these problems will be fixed soon
(a subset is fixed already).